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减数分裂基因的一个重复拷贝可使多倍体小麦的花粉活力和粒数保持高达50%。

A Duplicated Copy of the Meiotic Gene Preserves up to 50% Pollen Viability and Grain Number in Polyploid Wheat.

作者信息

Alabdullah Abdul Kader, Moore Graham, Martín Azahara C

机构信息

Crop Genetics Department, John Innes Centre, Colney, Norwich NR4 7UH, UK.

出版信息

Biology (Basel). 2021 Apr 2;10(4):290. doi: 10.3390/biology10040290.

DOI:10.3390/biology10040290
PMID:33918149
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8065865/
Abstract

Although most flowering plants are polyploid, little is known of how the meiotic process evolves after polyploidisation to stabilise and preserve fertility. On wheat polyploidisation, the major meiotic gene on chromosome 3B duplicated onto 5B and diverged (). was recently shown to promote homologous pairing, synapsis and crossover, and suppress homoeologous crossover. We therefore suspected that these meiotic stabilising effects could be important for preserving wheat fertility. A CRISPR mutant was exploited to assess the contribution of the 5B duplicated copy in maintaining pollen viability and grain setting. Analysis demonstrated abnormalities in 56% of meiocytes in the mutant, with micronuclei in 50% of tetrads, reduced size in 48% of pollen grains and a near 50% reduction in grain number. Further studies showed that most of the reduced grain number occurred when mutant plants were pollinated with the less viable mutant pollen rather than with wild type pollen, suggesting that the stabilising effect of on meiosis has a greater consequence in subsequent male, rather than female gametogenesis. These studies reveal the extraordinary value of the wheat chromosome 5B duplication to agriculture and human nutrition. Future studies should further investigate the role of on female fertility and assess whether different alleles exhibit variable effects on meiotic stabilisation and/or resistance to temperature change.

摘要

虽然大多数开花植物是多倍体,但对于多倍体化后减数分裂过程如何演化以稳定和保持育性却知之甚少。在小麦多倍体化过程中,3B染色体上的主要减数分裂基因复制到5B染色体上并发生了分化()。最近研究表明,该基因可促进同源配对、联会和交叉,并抑制部分同源交叉。因此,我们推测这些减数分裂稳定效应可能对保持小麦育性很重要。利用CRISPR突变体来评估5B染色体上复制的该基因拷贝在维持花粉活力和结实率方面的作用。分析表明,该突变体中56%的减数分裂细胞存在异常,50%的四分体中有微核,48%的花粉粒尺寸减小,粒数减少近50%。进一步研究表明,粒数减少大多发生在突变体植株用活力较低的突变体花粉而非野生型花粉授粉时,这表明该基因对减数分裂的稳定作用在随后的雄配子发生中比在雌配子发生中具有更大的影响。这些研究揭示了小麦5B染色体上该基因复制对农业和人类营养的非凡价值。未来的研究应进一步探究该基因在雌配子育性中的作用,并评估不同的等位基因是否对减数分裂稳定和/或抗温度变化表现出不同的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/59c3c4f3f9a7/biology-10-00290-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/5ea924643a01/biology-10-00290-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/59c3c4f3f9a7/biology-10-00290-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/5ea924643a01/biology-10-00290-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/9476044ccfa0/biology-10-00290-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4071/8065865/92c7b66acb69/biology-10-00290-g003.jpg
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